// This example shows how you can create a basic counter with a phasor.
// A phasor oscillator can create a ramp between any two values.
// It takes three inputs - frequency, start value and stop value.
// These are all double precision floats, so it's a continuous slide.
// If you write it into an integer, it will round it off for you.
// This creates a bunch of steps.

#include "Maximilian.hpp"

maxiOsc myCounter, mySquare;//these oscillators will help us count and play sound
int CurrentCount;//we're going to put the current count in this variable so that we can use it more easily.


void setup()
{//some inits
	//nothing to go here this time
}

void play(double* output)
{

	// Here you can see that CurrentCount is an int. It's taking the continuous output of the phasor and convering it.
	// You don't need to explicityly 'cast' (i.e. change) the value from a float to an int.
	// It happens automagically in these cases.

	// Once every second, CurrentCount counts from 1 until it gets to 9, then resets itself.
	// When it reaches 9 it resets, so the values you get are 1-8.

	CurrentCount = myCounter.phasor(1, 1, 9);//phasor can take three arguments; frequency, start value and end value.

	// If we multiply the output of CurrentCount by 100, we get 100,200,300,400,500,600,700,800 in that order.
	// These become the frequency of the oscillator.
	// In this case, the oscillator is an antialiased sawtooth wave. Yum.
	output[0] = mySquare.sawn(CurrentCount * 100);
	output[1] = output[0];

}
